Renewable furniture glide

ABSTRACT

A renewable furniture glide for use with a tubular furniture leg includes a foot and a ferrule. The foot includes a base portion having a bottom surface for contacting a floor and a sleeve portion to receive a lower end of the furniture leg. The ferrule includes a leg engagement section that engages the inner surface of the furniture leg and a foot engagement section that engages the inner surface of the foot sleeve portion.

BACKGROUND

The present invention relates to furniture glides, and more particularly to furniture glides having a renewable glide surface.

Furniture glides are available in a variety of styles and constructions, but an essential purpose is to provide an upper portion for receiving a furniture leg and a lower portion defining a sliding surface. U.S. Pat. No. 5,991,974, “Swivelling Furniture Glide”, and U.S. Pat. No. 6,154,923, “High Hold Furniture Glide”, and U.S. Publication US2002/0088082A1 describe glides of the type having a three main components: (1) a ferrule including a bottom wall, an upstanding cylindrical side wall extending from the bottom wall and defining a socket for receiving a furniture leg, and clip means within the socket, for engaging a received furniture leg, (2) a swivelable glide support shell affixed to the bottom wall of the ferrule, and (3) a glide base affixed to the support shell and defining a substantially flat sliding surface for contacting the floor.

U.S. Pat. No. 6,405,982, “Self-Attaching Sliding Support for Articles of Furniture”, describes another type of glide that does not have a ferrule or swivel capability, but rather consists of a generally cup-shaped, unitary body of a resilient element for gripping the legs and an integrated slidable base element for contact with the floor.

In these and other known furniture glides, the sliding surface for contacting the floor is of a material specifically chosen for surface on which the furniture glide will rest. Typical base element materials include steel (usually selected for carpeted floors), hard plastics such as nylon or polyethylene (typically selected for tile floors and older vinyl flooring products containing asbestos), or soft plastics (typically selected for vinyl flooring products that do not contain asbestos and wood floors). The sliding surfaces composed of soft plastics are subject to wear.

SUMMARY

Briefly stated, the subject renewable furniture glide for use with a tubular furniture leg comprises a foot and a ferrule. The foot includes a base portion having a bottom surface adapted for contacting a floor and a sleeve portion adapted to receive a lower end of the furniture leg. The ferrule includes a leg engagement section adapted to engage the inner surface of the furniture leg and a foot engagement section adapted to engage the inner surface of the foot sleeve portion.

The ferrule leg engagement section has an outside diameter that is greater than the inside diameter of the furniture leg.

The ferrule foot engagement section has an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.

A portion of the ferrule foot engagement section may frictionally engage the inner surface of the foot sleeve portion. Alternatively, a portion of the ferrule foot engagement section may penetrate or elastically deform the inner surface of the foot sleeve portion.

The ferrule may be a unitary, monolithic component including a central web, a set of arm segments extending radially outward from the web, and a set of leg segments extending radially outward from the web. The arm segments define the leg engagement section and the leg segments define the foot engagement section.

The arm segments are resiliently deformable, and extend axially downward to define an outside diameter that is greater than the inside diameter of the furniture leg.

Each leg segment extends axially downward from the web to a foot segment that extends radially outward. The outer edges of the foot segments define an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.

The ferrule may include an axially extending hub, an upper arm member mounted to an upper end of the hub, and a lower arm member mounted to a lower end of the hub.

The upper arm member includes resiliently deformable arm segments that extend radially outward and axially downward to define a diameter greater than the inside diameter of the furniture leg.

The lower arm member includes arm segments that extend radially outward to define an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.

The ferrule may include a tubular leg engagement section and a rim extending radially outward from the bottom end of the leg engagement section. The rim forms the foot engagement section.

The leg engagement section has an outside diameter that is greater than the inside diameter of the furniture leg.

The leg engagement section has a resilience and a wall thickness selected such that the leg engagement section is compressed during installation of the ferrule.

The top end of the leg engagement section may have a tapered outer surface.

The rim has an outside diameter that is greater than the outside diameter of the tubular furniture leg and the inside diameter of the foot sleeve portion.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention may be better understood and its numerous objects and advantages will become apparent to those skilled in the art by reference to the accompanying drawings in which:

FIG. 1 is a perspective view of a furniture glide in accordance with the disclosure, showing the furniture glide mounted to the lower end of a furniture leg;

FIG. 2 is a top view of the furniture glide of FIG. 1;

FIG. 3 is a cross-sectional view taken along line 3-3 of FIG. 2;

FIG. 4 is an enlarged view of area IV of FIG. 3;

FIG. 5 is a side view of the renewable foot of FIG. 1;

FIG. 6 is a top view of the renewable foot of FIG. 1;

FIG. 7 is a perspective view of the ferrule of FIG. 2;

FIG. 8 is a top view of the ferrule of FIG. 2;

FIG. 9 is a side view of the ferrule of FIG. 2;

FIG. 10 is a perspective view of a second embodiment of the ferrule;

FIG. 11 is a top view of the ferrule of FIG. 10;

FIG. 12 is a side view of the ferrule of FIG. 10;

FIG. 13 is a perspective view of a third embodiment of the ferrule;

FIG. 14 is a top view of the ferrule of FIG. 13; and

FIG. 15 is a side view of the ferrule of FIG. 13.

DETAILED DESCRIPTION

With reference to FIGS. 1-4, a renewable furniture glide 10 in accordance with the disclosure includes a foot 12 that may be replaced as it nears the end of it's useful life or if the installed foot is not appropriate for the surface on which the furniture will be placed. A ferrule 14, 14′, 14″ mounts the foot 12 to the lower end 16 of a furniture leg 18.

With additional reference to FIGS. 5 and 6, the foot 12 comprises a shell having a base portion 20 for engaging a floor surface and a sleeve portion 22 for receiving the lower end 16 of the furniture leg 18. The foot 12 may be a unitary or singular component molded from of a resilient material, such as a polymer material. The inside diameter 24 of the sleeve portion 22 may be slightly greater than, equal to, or slightly less than the outside diameter 26 of the leg 18, so long as inside diameter 24 is less than the outside diameter of the foot engagement section 28 as explained in greater detail below. As defined herein the term “diameter” means a line segment having end points that lie on the opposite sides of the inner surface (for inside diameter) or the outer surface (for outside diameter) of an object. The bottom surface 30 of the base portion 20 may have an arcuate-shape, as shown in FIGS. 3-5, a plow base configuration as disclosed in U.S. patent application Ser. No. 11/111,410, filed Apr. 21, 2005 (hereby incorporated by reference), or any other shape appropriate for the furniture on which the furniture glide 10 may be used.

The ferrule 14, 14′, 14″ includes an upper, leg engagement section 32 that frictionally engages the inner surface 34 of the leg 18 to fixedly mount the ferrule 14, 14′, 14″ to the leg 18. A lower, foot engagement section 28 has an outside diameter 36 that is greater than both the outside diameter 26 the furniture leg 18 and the inside diameter 24 of the foot sleeve portion 22. When the ferrule leg engagement section 32 is mounted within the furniture leg 18, a portion 38 of the foot engagement section 28 extends radially outward beyond the outer surface 40 of the leg 18 to frictionally engage the inner surface 42 of the sleeve portion 22 of the foot 12. In some examples, this portion 38 of the foot engagement section 28 may penetrate or elastically deform inner surface 42.

With reference to FIGS. 7-9, a first embodiment of the ferrule 14 is a unitary component having a central web 44 which has a footprint smaller than the inside diameter 46 of the furniture leg 18. A set of arm segments 48 and a set of leg segments 50 extending radially outward from the web 44, with the arm segments 48 defining the leg engagement section 32 and the leg segment 50 defining the foot engagement section 28. Generally, the arm segments 48 are disposed intermediate the leg segments 50. The unstressed arm segments 48 extend axially downward to define a diameter 52 greater than the inside diameter 46 of the tubular furniture leg 18. The arm segments 48 are resiliently deformable whereby as the leg engagement section 32 is inserted web first into the furniture leg 18, the arm segments 48 deform inwardly to the smaller inside diameter 46 of the furniture leg 18. The arm segments 48 remain resiliently deformed within the furniture leg 18, exerting a clamping force on the furniture leg 18.

Each leg segment 50 extends axially downward from the web 44 to a foot segment 54 that extends radially outward to an outer edge 56. The outer edges 56 of the foot segments 54 define an outside diameter 36 that is greater than the outside diameter 26 of the tubular furniture leg and the inside diameter 24 of the foot sleeve portion 22.

With reference to FIGS. 10-12, a second embodiment of the ferrule 14′ includes an axially extending hub 58, an upper arm member 60 mounted to the upper end 62 of the hub 58, and a lower arm member 64 mounted to the lower end 66 of the hub 58. The upper arm member 60 includes arm segments 68 that extend radially outward and axially downward to define a diameter 70 greater than the inside diameter 46 of the tubular furniture leg 18. The arm segments 68 are resiliently deformable whereby as the upper arm member 60 is inserted into the furniture leg 18, they resiliently deform inwardly to the smaller inside diameter 46 of the furniture leg 18. The arm segments 68 remain resiliently deformed within the furniture leg 18, exerting a clamping force on the furniture leg 18.

The lower arm member 64 includes arm segments 72 that extend radially outward to define an outside diameter 74 that is greater than the outside diameter 26 of the tubular furniture leg 18 and the inside diameter 24 of the foot sleeve portion 22.

With reference to FIGS. 13-15, a third embodiment of the ferrule 14″ has a tubular leg engagement section 76 having an outside diameter 78 that is slightly greater than the inside diameter 46 of the furniture leg 18. The resilience and the wall thickness 80 of the leg engagement section 76 are selected to facilitate compression of the leg engagement section 76 during installation of the ferrule 14″. For example, the leg engagement section 76 may be composed of a polymeric material such as nylon and have a wall thickness 80 of 0.050 inches. The upper end 82 of the leg engagement section 76 has a tapered outer surface 84 to facilitate insertion of the leg engagement section 76. The foot engagement section 86 is a rim that extends radially outward from the bottom end 88 of the leg engagement section 76. The foot engagement section 86 has an outside diameter 90 that is greater than the outside diameter 26 of the tubular furniture leg 18 and the inside diameter 24 of the foot sleeve portion 22. The ferrule 14″ may be a unitary component.

While preferred embodiments have been shown and described, various modifications and substitutions may be made thereto without departing from the spirit and scope of the invention. Accordingly, it is to be understood that the present invention has been described by way of illustration and not limitation. 

1. A renewable furniture glide for use with a tubular furniture leg having inner and outer surfaces defining inside and outside diameters, respectively, the glide comprising: a foot including a base portion having a bottom surface adapted for contacting a floor, and a sleeve portion adapted to receive a lower end of the furniture leg, the sleeve portion having an inner surface defining an inside diameter; a ferrule including a leg engagement section adapted to engage the inner surface of the furniture leg, and a foot engagement section adapted to engage the inner surface of the foot sleeve portion.
 2. The furniture glide of claim 1 wherein the ferrule leg engagement section has an outside diameter that is greater than the inside diameter of the furniture leg.
 3. The furniture glide of claim 2 wherein the ferrule foot engagement section has an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.
 4. The furniture glide of claim 3 wherein a portion of the ferrule foot engagement section frictionally engages the inner surface of the foot sleeve portion.
 5. The furniture glide of claim 3 wherein a portion of the ferrule foot engagement section penetrates or elastically deforms the inner surface of the foot sleeve portion.
 6. The furniture glide of claim 1 wherein the ferrule is a unitary, monolithic component including: a central web; a set of arm segments extending radially outward from the web, the arm segments defining the leg engagement section; and a set of leg segments extending radially outward from the web, the leg segment defining the foot engagement section.
 7. The furniture glide of claim 6 wherein the arm segments are disposed intermediate the leg segments.
 8. The furniture glide of claim 6 wherein the arm segments are resiliently deformable, extend axially downward and define an outside diameter that is greater than the inside diameter of the furniture leg.
 9. The furniture glide of claim 6 wherein each leg segment extends axially downward from the web to a foot segment that extends radially outward to an outer edge defining an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.
 10. The furniture glide of claim 1 wherein the ferrule includes: an axially extending hub; an upper arm member mounted to an upper end of the hub; and a lower arm member mounted to a lower end of the hub.
 11. The furniture glide of claim 10 wherein the upper arm member includes resiliently deformable arm segments that extend radially outward and axially downward to define a diameter greater than the inside diameter of the furniture leg.
 12. The furniture glide of claim 11 wherein the lower arm member includes arm segments that extend radially outward to define an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.
 13. The furniture glide of claim 1 wherein the ferrule includes: a tubular leg engagement section having top and bottom ends; and a rim extending radially outward from the bottom end of the leg engagement section, the rim defining the foot engagement section.
 14. The furniture glide of claim 13 wherein the leg engagement section has an outside diameter that is greater than the inside diameter of the furniture leg.
 15. The furniture glide of claim 14 wherein the leg engagement section has a resilience and a wall thickness selected whereby the leg engagement section is compressed during installation of the ferrule.
 16. The furniture glide of claim 13 wherein the top end of the leg engagement section has a tapered outer surface.
 17. The furniture glide of claim 13 wherein the rim has an outside diameter that is greater than the outside diameter of the tubular furniture leg and the inside diameter of the foot sleeve portion.
 18. A renewable furniture glide for use with a tubular furniture leg having inner and outer surfaces defining inside and outside diameters, respectively, the glide comprising: a foot including a base portion having a bottom surface adapted for contacting a floor, and a sleeve portion adapted to receive a lower end of the furniture leg, the sleeve portion having an inner surface defining an inside diameter; a ferrule including a leg engagement section having an outside diameter that is greater than the inside diameter of the furniture leg, and a foot engagement section having an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.
 19. A renewable furniture glide for use with a tubular furniture leg having inner and outer surfaces defining inside and outside diameters, respectively, the glide comprising: a foot including a base portion having a bottom surface adapted for contacting a floor, and a sleeve portion adapted to receive a lower end of the furniture leg, the sleeve portion having an inner surface defining an inside diameter; a unitary, monolithic ferrule including a central web, a set of resiliently deformable arm segments extending axially downward and radially outward from the web, the arm segments defining an outside diameter that is greater than the inside diameter of the furniture leg, and a set of leg segments extending axially downward and radially outward from the web to a foot segment that extends radially outward to an outer edge defining an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion.
 20. A renewable furniture glide for use with a tubular furniture leg having inner and outer surfaces defining inside and outside diameters, respectively, the glide comprising: a foot including a base portion having a bottom surface adapted for contacting a floor, and a sleeve portion adapted to receive a lower end of the furniture leg, the sleeve portion having an inner surface defining an inside diameter; a ferrule including an axially extending hub, an upper arm member mounted to an upper end of the hub, the upper arm member having resiliently deformable arm segments that extend radially outward and axially downward to define a diameter greater than the inside diameter of the furniture leg, and a lower arm member mounted to a lower end of the hub, the lower arm member having arm segments that extend radially outward to define an outside diameter that is greater than the outside diameter of the furniture leg and the inside diameter of the foot sleeve portion
 21. A renewable furniture glide for use with a tubular furniture leg having inner and outer surfaces defining inside and outside diameters, respectively, the glide comprising: a foot including a base portion having a bottom surface adapted for contacting a floor, and a sleeve portion adapted to receive a lower end of the furniture leg, the sleeve portion having an inner surface defining an inside diameter; a ferrule including a tubular leg engagement section having top and bottom ends, the leg engagement section having an outside diameter that is greater than the inside diameter of the furniture leg, and a rim extending radially outward from the bottom end of the leg engagement section, the rim having an outside diameter that is greater than the outside diameter of the tubular furniture leg and the inside diameter of the foot sleeve portion. 